CN110075731A - Printing and dyeing feedstock processing system - Google Patents

Abstract

The present invention relates to dyeing apparatus fields, more particularly to a kind of printing and dyeing feedstock processing system, it is connected on total mix draw box mechanism including solid feed addition mechanism, liquid material addition mechanism, raw material Chu Hun mechanism, total mix organisation of working, total mix draw box mechanism, linkage mechanism, T shape seat board, upper base plate, perpendicular support and lower seat board, the total mix organisation of working；The lower end of the total mix draw box mechanism is fixedly connected on lower seat board；The lower end of the total mix draw box mechanism transmission connection linkage mechanism；The lower end of the linkage mechanism is fixedly connected on total mix draw box mechanism, the lower end of linkage mechanism is slidably connected in the vertical slide opening of perpendicular support, the upper end of linkage mechanism is connected on T shape seat board, and the upper end transmission connection solid feed addition mechanism and liquid material of linkage mechanism add mechanism；The synchronous more raw materials of addition during part material mixes, and its addition work that raw material can be automatically stopped when total mix raw material reaches preset weight may be implemented in the present invention.

Description

Printing and dyeing feedstock processing system

Technical field

The present invention relates to dyeing apparatus fields, more particularly to a kind of printing and dyeing feedstock processing system.

Background technique

Printing and dyeing are the synthesis of physics, chemical treating process to be carried out to textile fabric, such as increase decorative pattern, figure on textile fabric Case, change textile fabric color and relevant pre-treating technology, occurred physically or chemically between dyestuff and fibre object by making Variation, it will so that textile fabric has certain color and glossiness, according to the difference of printing and dyeing object, dyeing process can be divided into Cotton spinning printing and dyeing, flax spinning printing and dyeing, wool textile dyeing and finishing and silk printing and dyeing, China's printing and dyeing industry development is very fast, and working ability occupies First place in the world has been textile printing and dyeing big producer.

During printing and dyeing raw material, the raw material that needs to print and dye solid-state is mixed with liquid printing and dyeing raw material, but existing All raw materials are generally directly put into when raw material mixes and are mixed into mix reaction equipment by printing and dyeing Raw material processing device, nothing Method realize that mixing and raw material adds it is synchronous carry out, and can not when raw material reaches constant weight in mix reaction equipment realization oneself It is dynamic to stop adding raw materials.

Summary of the invention

The object of the present invention is to provide a kind of printing and dyeing feedstock processing system, may be implemented during part material mixes It is synchronous to add more raw materials, and its addition work that raw material is automatically stopped when total mix raw material reaches preset weight.

The purpose of the present invention is achieved through the following technical solutions:

Print and dye feedstock processing system, including solid feed addition mechanism, liquid material addition mechanism, raw material Chu Hun mechanism, total mix Organisation of working, total mix draw box mechanism, linkage mechanism, T shape seat board, upper base plate, perpendicular support and lower seat board, the total mix organisation of working connect It connects on total mix draw box mechanism；The lower end of the total mix draw box mechanism is fixedly connected on lower seat board；The total mix draw box mechanism transmission connects Connect the lower end of linkage mechanism；The lower end of the linkage mechanism is fixedly connected on total mix draw box mechanism, the lower end sliding of linkage mechanism It is cooperatively connected in the vertical slide opening of perpendicular support, the upper end of linkage mechanism is connected on T shape seat board, and the upper end of linkage mechanism, which is driven, to be connected Meet solid feed addition mechanism and liquid material addition mechanism；The upper and lower ends of the perpendicular support be respectively fixedly connected with upper base plate and Lower seat board；The upper end of the solid feed addition mechanism and liquid material addition mechanism is connected to the left and right two of T shape seat board End；It is respectively fixedly connected in the middle part of the solid feed addition mechanism and liquid material addition mechanism in the left and right of upper base plate two End；The lower end of the solid feed addition mechanism and liquid material addition mechanism is solid with the left and right ends of raw material Chu Hun mechanism respectively Surely it is connected to and in communication with；Raw material Chu Hun mechanism is located at the surface of total mix draw box mechanism.

Solid feed addition mechanism includes belt wheel A, shaft A, conveyor screw, solid feed cylinder and conveying pipeline A；It is described solid The lower end of state material tube is fixedly connected and is connected to one end of conveying pipeline A, the other end of conveying pipeline A and a left side for raw material Chu Hun mechanism End is fixedly connected and is connected to；The upper end of the solid feed cylinder is fixedly connected on the left end of T shape seat board, the middle part of solid feed cylinder It is fixedly connected on the left end of upper base plate；The upper and lower ends of the shaft A are respectively fixedly connected with belt wheel A and conveyor screw, and conveyor screw turns The lower end being cooperatively connected inside solid feed cylinder is moved, is rotatably connected on T shape seat board in the middle part of shaft A；The belt wheel A and connection Motivation structure is connected with liquid material addition mechanism by toothed belt transmission.

Liquid material addition mechanism include belt wheel B, screw rod, liquid material cylinder, the conveying pipeline B with control valve, Take out platen, guide rod and the feed pipe with control valve；The belt wheel B is fixedly connected on the top of screw rod, belt wheel A and belt wheel B is connected with linkage mechanism by toothed belt transmission；The middle part of the screw rod is rotatably connected on T shape seat board by rolling bearing units； The pumping platen is threadedly attached on the lower end body of rod of screw rod, takes out platen sliding connection on the guide bar, guide rod It is fixedly connected on the inner wall of liquid material cylinder；The pumping platen sealing is slidably connected on the inner wall of liquid material cylinder；It is described The upper end of liquid material cylinder is fixedly connected on the right end of T shape seat board；Upper base plate is fixedly connected in the middle part of the liquid material cylinder Right end；The lower end of the liquid material cylinder is fixedly connected and is connected to one end of conveying pipeline B；The other end and original of conveying pipeline B The right end end of Liao Chuhun mechanism is fixedly connected and is connected to；Be fixedly connected with feed pipe in the feed opening for taking out platen, feed pipe with The inside of liquid material cylinder is connected to.

Raw material Chu Hun mechanism includes horizontal mixing drum, bending blanking barrel, shaft B, swirl vanes and wheel is mixed； The upper end opening of the bending blanking barrel is fixedly connected on the left end of horizontal mixing drum；The lower ending opening court of the bending blanking barrel It is arranged to total mix draw box mechanism；Left and right ends on rear side of the bending blanking barrel are fixedly connected simultaneously with conveying pipeline A and conveying pipeline B respectively Connection；The right end of the shaft B is rotatably connected on the right side of horizontal mixing drum by mechanical seal；It is solid on the shaft B Wheel and swirl vanes are mixed in fixed connection, and the front that wheel is located at conveying pipeline A is mixed, and swirl vanes are located at conveying pipeline B Front.

The total mix draw box mechanism includes cabinet, lifting support, compressed spring, stop collar, cylindrical shaft and has control valve Drainage conduit；The lower end of the cabinet is fixedly connected on the upper end of lifting support, and the lower end sliding connection of lifting support exists The middle part of cylindrical shaft, the lower end of cylindrical shaft are fixedly connected on lower seat board；The upper end of the cylindrical shaft is connected through a screw thread limit Ring, on lifting support, the bottom end of cabinet is fixedly connected and is connected to drainage conduit stop collar block；The rear end of the lifting support is solid Surely linkage mechanism is connected；The total mix organisation of working is connected on cabinet；The lower ending opening of the bending blanking barrel is towards cabinet Inside setting.

Electric boiling plate is fixedly connected on the bottom surface of the cabinet.

The total mix organisation of working include with the servo motor of retarder, motor seat board, drive bevel gear, by mantle tooth Take turns A, dynamic bevel gear B, L shape seat board, rotating shaft C, rotation pipe, rotating ring, agitating plate, irregular gear, rack gear, rectangular guide bar, Grader leveling blade, perpendicular latch plate and reseting pressuring spring；The servo motor is fixedly connected on the trailing flank of cabinet by motor seat board； Drive bevel gear is fixedly connected on the output shaft of the servo motor, the lower end of drive bevel gear is connected by meshing transmission by mantle tooth Take turns A and dynamic bevel gear B；The dynamic bevel gear A is fixedly connected on the rear end of rotating shaft C, and the rear end of rotating shaft C passes through rolling bearing units It is rotatably connected on L shape seat board, L shape seat board is fixedly connected on motor seat board；The middle part sealing of the rotating shaft C is rotatably connected on It rotates in pipe；The front end of the rotating shaft C is fixedly connected with irregular gear；The lower end of the irregular gear is connected by meshing transmission tooth Item, the lower end of rack gear are fixedly connected with grader leveling blade, and grader leveling blade is slidably connected the rectangle on the bottom surface of box house Guide rod is slidably connected in the rectangular through-hole among rack gear, and the left and right ends of rectangular guide bar are respectively fixedly connected in cabinet The left and right ends in portion；The lower end of the perpendicular latch plate is fixedly connected on grader leveling blade, and the upper end of perpendicular latch plate is fixedly connected multiple The right end of position spring, the left end of reset spring is fixedly connected in the inner left wall of cabinet；The dynamic bevel gear B is fixedly connected In the rear end of rotation pipe, the middle part for rotating pipe is rotatably connected on the trailing flank of cabinet by mechanical seal, rotates the front end of pipe It is fixedly connected with rotating ring, uniform ring is rotatably connected on cabinet around muti-piece agitating plate, muti-piece agitating plate is fixedly connected on rotating ring It is internal.

The irregular gear is a quarter gear；Irregular gear is located at the front end of muti-piece agitating plate.

The linkage mechanism includes linkage bevel gear, universal driving shaft, friction drive wheel, friction linkage disk, lifting carriage plate, short Axis A, frame plate, drive sprocket are indulged, by movable sprocket, worm screw, worm gear, short axle B and linkage belt wheel；The dynamic bevel gear A and passive The lower end of bevel gear B is connected by meshing transmission bevel gear of linking；The linkage bevel gear is fixedly connected on the top of universal driving shaft, linkage Friction drive wheel is fixedly connected in the middle part of axis, the bottom end of universal driving shaft is rotatably connected on the rear end of lifting carriage plate, lifting carriage plate Middle-end be slidably connected in the vertical slide opening of perpendicular support, the front end of lifting carriage plate is fixedly connected on cabinet；It is described to rub The rear end for wiping driving wheel is connect with friction linkage disk frictional drive；The friction linkage disk and drive sprocket are respectively fixedly connected with The front end both ends of short axle A, the lower end of vertical frame plate is rotatably connected in the middle part of short axle A, and the upper end of vertical frame plate is fixedly connected on T shape seat The rear end of plate；The drive sprocket and by between movable sprocket by chain drive connect, worm screw is fixedly connected on by movable sprocket Rear end is rotatably assorted in the middle part of worm screw and is connected to the upper end of vertical frame plate, and the front end of worm screw is connected by meshing transmission worm gear, worm gear and connection Movable belt pulley is all fixedly connected on short axle B, and short axle B, which is rotatably assorted, to be connected on T shape seat board；The linkage belt wheel, belt wheel A and band It takes turns and is connected between B by toothed belt transmission.

The short axle A is located at the upper end of friction drive wheel.

Beneficial effects of the present invention: a kind of printing and dyeing feedstock processing system of the invention can be directed at while adding raw materials Raw material is mixed, and the synchronous more raw materials of addition during part material mixes may be implemented, convenient for improving raw material Hybrid reaction effect；And its addition work that raw material can be automatically stopped when total mix raw material reaches preset weight, it is supervised without personnel Control operation, saves human cost, and efficiency is higher.

The present invention has the advantages that

1, can total mix organisation of working to inside total mix draw box mechanism raw material be mixed when, by solid feed add mechanism and Liquid material adds the synchronous addition work for carrying out raw material of mechanism；

2, when carrying out filling, solid feed addition mechanism is fed through original for solid feed addition mechanism and liquid material addition mechanism Material, which just mixes in-house solid feed, can mix in-house liquid at the beginning of being fed through raw material in liquid material addition mechanism It is tentatively mixed under the washing away of raw material, effect is mixed convenient for improving；

3, the liquid material that liquid material addition mechanism is sent into can drive raw material just to mix in-house swirl vanes and be revolved Work is flowed, swirl vanes eddy flow improves the mixed effect of liquid material and solid feed, can be by turning when swirl vanes rotate Axis B, which drives to be mixed to take turns, carries out rotation hybrid working, so that the mixed effect of liquid material and solid feed is more preferably, and eddy flow Impeller and the rotation that wheel is mixed are not necessarily to rely on electric energy, energy conservation and environmental protection；

4, when raw material is more and more inside total mix draw box mechanism, total mix organisation of working drives solid feed to add by linkage mechanism The speed that mechanism and liquid material addition mechanism feed is slower and slower, and raw material reaches preset weight inside total mix draw box mechanism When, linkage mechanism stops that solid feed addition mechanism and liquid material addition mechanism is driven to carry out charging work, may be implemented certainly Dynamic circuit breaker material.

5, inside of the invention carries out drive control only with a servo motor, saves equipment acquisition cost, occupies empty Between it is smaller, working efficiency is higher.

Detailed description of the invention

Fig. 1 is overall structure diagram one of the invention；

Fig. 2 is overall structure diagram two of the invention；

Fig. 3 is the structural schematic diagram of solid feed addition mechanism inside the present invention；

Fig. 4 is the sectional structure chart of solid feed addition mechanism inside the present invention；

Fig. 5 is the structural schematic diagram one of interior liquid raw material addition of the present invention mechanism；

Fig. 6 is the structural schematic diagram two of interior liquid raw material addition of the present invention mechanism；

Fig. 7 is the structural schematic diagram of raw material Chu Hun mechanism inside the present invention；

Fig. 8 is the partial structural diagram of raw material Chu Hun mechanism inside the present invention；

Fig. 9 is the structural schematic diagram one of total mix organisation of working inside the present invention；

Figure 10 is the structural schematic diagram two of total mix organisation of working inside the present invention；

Figure 11 is the structural schematic diagram one of total mix draw box mechanism inside the present invention；

Figure 12 is the structural schematic diagram two of total mix draw box mechanism inside the present invention；

Figure 13 is the structural schematic diagram one of Inner link mechanism of the present invention；

Figure 14 is the structural schematic diagram two of Inner link mechanism of the present invention；

Figure 15 is the structural schematic diagram of perpendicular support inside the present invention；

Figure 16 is the structural schematic diagram of interior T seat board of the present invention；

Figure 17 is the structural schematic diagram of upper base plate inside the present invention.

In figure: solid feed adds mechanism 1；Belt wheel A1-1；Shaft A1-2；Conveyor screw 1-3；Solid feed cylinder 1-4；Conveying Pipe A1-5；Liquid material adds mechanism 2；Belt wheel B2-1；Screw rod 2-2；Liquid material cylinder 2-3；Conveying pipeline B2-4；Take out platen 2-5； Guide rod 2-6；Feed pipe 2-7；Raw material Chu Hun mechanism 3；Horizontal mixing drum 3-1；It is bent blanking barrel 3-2；Shaft B3-3；Eddy flow leaf Take turns 3-4；Wheel 3-5 is mixed；Total mix organisation of working 4；Servo motor 4-1；Motor seat board 4-2；Drive bevel gear 4-3；Passively Bevel gear A4-4；Dynamic bevel gear B4-5；L shape seat board 4-6；Rotating shaft C 4-7；Rotate pipe 4-8；Rotating ring 4-9；Agitating plate 4-10； Irregular gear 4-11；Rack gear 4-12；Rectangular guide bar 4-13；Grader leveling blade 4-14；Perpendicular latch plate 4-15；Reseting pressuring spring 4-16； Total mix draw box mechanism 5；Cabinet 5-1；Lifting support 5-2；Compressed spring 5-3；Stop collar 5-4；Cylindrical shaft 5-5；Drainage conduit 5-6；Connection Motivation structure 6；Link bevel gear 6-1；Universal driving shaft 6-2；Friction drive wheel 6-3；Friction linkage disk 6-4；Lifting carriage plate 6-5；It is short Axis A6-6；Vertical frame plate 6-7；Drive sprocket 6-8；By movable sprocket 6-9；Worm screw 6-10；Worm gear 6-11；Short axle B6-12；Link belt wheel 6-13；T shape seat board 7；Upper base plate 8；Perpendicular support 9；Lower seat board 10.

Embodiment

Invention is further described in detail by 1-17 with reference to the accompanying drawing.

Embodiment one:

As shown in Fig. 1-17, feedstock processing system of printing and dyeing, including solid feed addition mechanism 1, liquid material addition mechanism 2, original Liao Chuhun mechanism 3, total mix organisation of working 4, total mix draw box mechanism 5, linkage mechanism 6, T shape seat board 7, upper base plate 8, perpendicular support 9 and under Seat board 10, the total mix organisation of working 4 are connected on total mix draw box mechanism 5；The lower end of the total mix draw box mechanism 5 is fixedly connected on down On seat board 10；The lower end of the transmission connection of total mix draw box mechanism 5 linkage mechanism 6；The lower end of the linkage mechanism 6 is fixedly connected on On total mix draw box mechanism 5, the lower end of linkage mechanism 6 is slidably connected the upper end of linkage mechanism 6 in the vertical slide opening of perpendicular support 9 It is connected on T shape seat board 7, the upper end transmission connection solid feed addition mechanism 1 and liquid material of linkage mechanism 6 add mechanism 2； The upper and lower ends of the perpendicular support 9 are respectively fixedly connected with upper base plate 8 and lower seat board 10；The solid feed addition mechanism 1 and liquid The upper end of state raw material addition mechanism 2 is connected to the left and right ends of T shape seat board 7；The solid feed addition mechanism 1 and liquid The middle part of raw material addition mechanism 2 is respectively fixedly connected in the left and right ends of upper base plate 8；The solid feed addition mechanism 1 and liquid The lower end of state raw material addition mechanism 2 is fixedly connected and is connected to the left and right ends of raw material Chu Hun mechanism 3 respectively；The raw material is just mixed Mechanism 3 is located at the surface of total mix draw box mechanism 5.

Printing and dyeing feedstock processing system of the invention, is mainly used for the dye liquor of processing printing and dyeing；Add to printing and dyeing raw material Solid feed and liquid material are put into respectively to solid feed addition mechanism 1 and liquid material add mechanism 2 first by working hour It is internal；Then total mix organisation of working 4 is connected to power supply and is opened by control switch, total mix organisation of working 4 can band after opening Dynamic linkage mechanism 6 works, and linkage mechanism 6 can drive solid feed addition mechanism 1 and liquid material addition machine when working Structure 2 carries out the addition of solid feed and the addition work of liquid material to the left and right ends inside raw material Chu Hun mechanism 3 respectively, Gu State raw material adds mechanism 1 and liquid material addition mechanism 2 when carrying out filling, at the beginning of solid feed addition mechanism 1 is fed through raw material Solid feed inside mixed mechanism 3 can be fed through the original of the liquid inside raw material Chu Hun mechanism 3 in liquid material addition mechanism 2 It is tentatively mixed under the washing away of material, effect is mixed convenient for improving；Solid feed and the mixed total mixing of liquid material It falls into the inside of total mix draw box mechanism 5, is carried out at further mixing through the total mix organisation of working 4 in total mix draw box mechanism 5 Reason, finally obtains uniformly mixed printing and dyeing raw material, that is, dye liquor, and discharge is collected；When 5 inside raw material of total mix draw box mechanism is got over When coming more, total mix organisation of working 4 by linkage mechanism 6 drive solid feed add mechanism 1 and liquid material add mechanism 2 into The speed of row charging is slower and slower, and when 5 inside raw material of total mix draw box mechanism reaches preset weight, linkage mechanism 6 stops driving solid State raw material addition mechanism 1 and liquid material addition mechanism 2 carry out charging work, and automatic cutting may be implemented.

Embodiment two:

As shown in Fig. 1-17, solid feed addition mechanism 1 includes belt wheel A1-1, shaft A1-2, conveyor screw 1-3, solid-state original Barrel 1-4 and conveying pipeline A1-5；The lower end of the solid feed cylinder 1-4 is fixedly connected and is connected to one end of conveying pipeline A1-5, The other end of conveying pipeline A1-5 is fixedly connected and is connected to the left end of raw material Chu Hun mechanism 3；The upper end of the solid feed cylinder 1-4 It is fixedly connected on the left end of T shape seat board 7, the left end of upper base plate 8 is fixedly connected in the middle part of solid feed cylinder 1-4；The shaft The upper and lower ends of A1-2 are respectively fixedly connected with belt wheel A1-1 and conveyor screw 1-3, and conveyor screw 1-3, which is rotatably assorted, is connected to solid feed Lower end inside cylinder 1-4, is rotatably connected on T shape seat board 7 in the middle part of shaft A1-2；The belt wheel A1-1 and linkage mechanism 6 and Liquid material adds mechanism 2 and is connected by toothed belt transmission.The solid feed addition mechanism 1 is in the addition for carrying out solid feed When, solid feed is put into solid feed cylinder 1-4 first, belt wheel A1-1 can be turned under the drive of linkage mechanism 6 Dynamic, belt wheel A1-1 can drive shaft A1-2 around own axis when rotating, and shaft A1-2 can drive conveyor screw when rotating Solid feed can be passed through conveying pipeline A1-5 by the cooperation with solid feed cylinder 1-4 when conveyor screw 1-3 is rotated by 1-3 rotation It is fed through the inside of raw material Chu Hun mechanism 3, the addition work of solid feed can not be then carried out when conveyor screw 1-3 does not rotate Make.

Embodiment three:

As shown in Fig. 1-17, liquid material addition mechanism 2 includes belt wheel B2-1, screw rod 2-2, liquid material cylinder 2-3, has The conveying pipeline B2-4 of control valve, platen 2-5, guide rod 2-6 and the feed pipe 2-7 with control valve are taken out；The belt wheel B2- 1 is fixedly connected on the top of screw rod 2-2, and belt wheel A1-1 is connect with belt wheel B2-1 and linkage mechanism 6 by toothed belt transmission；It is described The middle part of screw rod 2-2 is rotatably connected on T shape seat board 7 by rolling bearing units；The pumping platen 2-5 is threadedly attached in screw rod On the lower end body of rod of 2-2, platen 2-5 sliding connection is taken out on guide rod 2-6, guide rod 2-6 is fixedly connected on liquid original On the inner wall of barrel 2-3；The pumping platen 2-5 sealing is slidably connected on the inner wall of liquid material cylinder 2-3；The liquid material The upper end of cylinder 2-3 is fixedly connected on the right end of T shape seat board 7；Upper base plate 8 is fixedly connected in the middle part of the liquid material cylinder 2-3 Right end；The lower end of the liquid material cylinder 2-3 is fixedly connected and is connected to one end of conveying pipeline B2-4；Conveying pipeline B2-4's is another One end is fixedly connected and is connected to the right end end of raw material Chu Hun mechanism 3；Charging is fixedly connected in the feed opening for taking out platen 2-5 Pipe 2-7, feed pipe 2-7 are connected to the inside of liquid material cylinder 2-3.Liquid material addition mechanism 2 is used for liquid material Addition, liquid material is fed through the lower end inside liquid material cylinder 2-3 by feed pipe 2-7 first, at this time feed pipe 2-7 It opens, conveying pipeline B2-4 is closed；When needing to add liquid material, feed pipe 2-7 is closed, and conveying pipeline B2-4 is opened, belt wheel B2- 1 is rotated under the drive of linkage mechanism 6, and belt wheel B2-1 can drive screw rod 2-2 around own axis, screw rod when rotating 2-2 can drive when rotating to be taken out platen 2-5 in liquid material cylinder 2-3 and is slided on guide rod 2-6, as pumping platen 2-5 Liquid material can be squeezed when slide downward to conveying pipeline B2-4 and raw material Chu Hun mechanism 3 is fed through by conveying pipeline B2-4 It is interior, then stop the work that feeds when screw rod 2-2 does not rotate.

Example IV:

As shown in Fig. 1-17, raw material Chu Hun mechanism 3 includes horizontal mixing drum 3-1, bending blanking barrel 3-2, shaft B3-3, rotation It flows impeller 3-4 and wheel 3-5 is mixed；The upper end opening of the bending blanking barrel 3-2 is fixedly connected on horizontal mixing drum 3-1's Left end；The lower ending opening of the bending blanking barrel 3-2 is arranged towards total mix draw box mechanism 5；A left side on rear side of the bending blanking barrel 3-2 Right both ends are fixedly connected and are connected to conveying pipeline A1-5 and conveying pipeline B2-4 respectively；The right end of the shaft B3-3 passes through mechanical close Envelope is rotatably connected on the right side of horizontal mixing drum 3-1；Mixing wheel 3-5 and eddy flow are fixedly connected on the shaft B3-3 Impeller 3-4 is mixed wheel 3-5 and is located at the front of conveying pipeline A1-5, swirl vanes 3-4 be located at conveying pipeline B2-4 just before Side.For tentatively being mixed to solid feed and liquid material, solid feed adds 1 He of mechanism for raw material Chu Hun mechanism 3 Liquid material adds mechanism 2 when carrying out filling, and solid feed addition mechanism 1 is fed through the solid-state inside raw material Chu Hun mechanism 3 Raw material can be under the washing away for the liquid material being fed through inside raw material Chu Hun mechanism 3 in liquid material addition mechanism 2 at the beginning of progress Effect is mixed convenient for improving in step mixing；Liquid material adds mechanism 2 and is sent into horizontal mixing drum 3-1 by conveying pipeline B2-4 Liquid material can drive the swirl vanes 3-4 inside raw material Chu Hun mechanism 3 carry out eddy flow work, swirl vanes 3-4 eddy flow The mixed effect of liquid material and solid feed is improved, mixing can be driven to stir by shaft B3-3 when swirl vanes 3-4 rotates Mix wheel 3-5 and carry out rotation hybrid working so that the mixed effect of liquid material and solid feed is more preferably, and swirl vanes 3-4 and The rotation that wheel 3-5 is mixed is not necessarily to rely on electric energy, energy conservation and environmental protection；Solid feed and the mixed total mixing of liquid material can be with Subsequent mixing processing is carried out by being bent the inside that blanking barrel 3-2 is fallen into total mix draw box mechanism 5.

Embodiment five:

As shown in Fig. 1-17, the total mix draw box mechanism 5 includes cabinet 5-1, lifting support 5-2, compressed spring 5-3, stop collar 5- 4, the cylindrical shaft 5-5 and drainage conduit 5-6 with control valve；The lower end of the cabinet 5-1 is fixedly connected on lifting support 5-2's The lower end of upper end, lifting support 5-2 is slidably connected at the middle part of cylindrical shaft 5-5, and the lower end of cylindrical shaft 5-5 is fixedly connected on On lower seat board 10；The upper end of the cylindrical shaft 5-5 is connected through a screw thread stop collar 5-4, and stop collar 5-4 block is in lifting support 5- On 2, the bottom end of cabinet 5-1 is fixedly connected and is connected to drainage conduit 5-6；The rear end of the lifting support 5-2 is fixedly connected with gear Structure 6；The total mix organisation of working 4 is connected on cabinet 5-1；The lower ending opening of the bending blanking barrel 3-2 is towards cabinet 5-1's Inside setting.The total mix draw box mechanism 5 is used for the subsequent hybrid working of solid feed and liquid material, when solid feed and liquid When the total weight of raw material is more and more, cabinet 5-1 is moved gradually downward, and cabinet 5-1 drives lifting support 5-2 to compressed spring 5- 3 are compressed, and cabinet 5-1 drives the structure of linkage mechanism 6 to change by lifting support 5-2, and then realize solid feed Addition mechanism 1 and liquid material addition mechanism 2 filling speed slow down and are finally stopped feed, conversely, after the completion of it mix After raw material of printing and dyeing is discharged by drainage conduit 5-6, the entirety of cabinet 5-1 can be back to original under the effect of the elastic force of compressed spring 5-3 Position, and the addition that solid feed adds mechanism 1 and liquid material adds the progress raw material of mechanism 2 is driven by linkage mechanism 6 again Work.

Embodiment six:

As shown in Fig. 1-17, electric boiling plate is fixedly connected on the bottom surface of the cabinet 5-1.Electric boiling plate use is purchased in the market Temperature controllable electric boiling plate, for mixed optimum temperature will to be heated to inside cabinet 5-1.

Embodiment seven:

As shown in Fig. 1-17, the total mix organisation of working 4 includes servo motor 4-1, motor seat board 4-2, master with retarder Dynamic bevel gear 4-3, dynamic bevel gear A4-4, dynamic bevel gear B4-5, L shape seat board 4-6, rotating shaft C 4-7, rotation pipe 4-8, rotation Ring 4-9, agitating plate 4-10, irregular gear 4-11, rack gear 4-12, rectangular guide bar 4-13, grader leveling blade 4-14, perpendicular latch plate 4- 15 and reseting pressuring spring 4-16；The servo motor 4-1 is fixedly connected on the trailing flank of cabinet 5-1 by motor seat board 4-2；Institute It states and is fixedly connected with drive bevel gear 4-3 on the output shaft of servo motor 4-1, the lower end of drive bevel gear 4-3 is connected by meshing transmission Dynamic bevel gear A4-4 and dynamic bevel gear B4-5；The dynamic bevel gear A4-4 is fixedly connected on the rear end of rotating shaft C 4-7, turns The rear end of axis C4-7 is rotatably connected on L shape seat board 4-6 by rolling bearing units, and L shape seat board 4-6 is fixedly connected on motor seat board 4- On 2；The middle part sealing of the rotating shaft C 4-7 is rotatably connected in rotation pipe 4-8；The front end of the rotating shaft C 4-7 is fixedly connected not Regular gear 4-11；The lower end of the irregular gear 4-11 is connected by meshing transmission rack gear 4-12, and the lower end of rack gear 4-12 is fixed Grader leveling blade 4-14 is connected, grader leveling blade 4-14 is slidably connected the rectangular guide bar 4- on the bottom surface inside cabinet 5-1 In the rectangular through-hole among rack gear 4-12, the left and right ends of rectangular guide bar 4-13 are respectively fixedly connected with for 13 sliding connections Left and right ends inside cabinet 5-1；The lower end of the perpendicular latch plate 4-15 is fixedly connected on grader leveling blade 4-14, erects latch plate The upper end of 4-15 is fixedly connected with the right end of reset spring, and the left end of reset spring is fixedly connected in the inner left wall of cabinet 5-1； The dynamic bevel gear B4-5 is fixedly connected on the rear end of rotation pipe 4-8, and the middle part for rotating pipe 4-8 is rotated by mechanical seal to be connected It connects on the trailing flank of cabinet 5-1, the front end of rotation pipe 4-8 is fixedly connected with rotating ring 4-9, and uniform ring is around solid on rotating ring 4-9 Surely muti-piece agitating plate 4-10 is connected, muti-piece agitating plate 4-10 is rotatably connected on the inside of cabinet 5-1.The total mix organisation of working 4 At work, servo motor 4-1 is using the servo motor purchased in the market；Servo motor 4-1 can drive initiative taper when working Gear 4-3 is rotated, and drive bevel gear 4-3 can drive dynamic bevel gear A4-4 and dynamic bevel gear B4-5 to carry out when rotating The rotation direction of rotation, dynamic bevel gear A4-4 and dynamic bevel gear B4-5 are opposite；The dynamic bevel gear A4-4 can when rotating To drive rotating shaft C 4-7 around own axis, rotating shaft C 4-7 can drive irregular gear 4-11 to be rotated when rotating, no Regular gear 4-11 carries out the sliding of horizontal direction with carry-over bar 4-12 on rectangular guide bar 4-13 when rotating, rack gear 4-12 drives Grader leveling blade 4-14 carries out the scraper work of raw material on the bottom surface inside cabinet 5-1, prevents raw material from precipitating, grader leveling blade 4-14 It drives perpendicular latch plate 4-15 to be moved when level sliding, and reseting pressuring spring 4-16 is compressed, as irregular gear 4-11 When being detached from rack gear 4-12, perpendicular latch plate 4-15 can drive grader leveling blade 4-14 to be back under the elastic force effect of reseting pressuring spring 4-16 It is in situ, and control campaign is carried out again through irregular gear 4-11；The dynamic bevel gear B4-5 can drive rotation when rotating Tube 4-8 can drive rotating ring 4-9 to rotate, rotating ring 4-9 can when rotating around own axis when rotating pipe 4-8 rotation To drive muti-piece agitating plate 4-10 to carry out circulating type movement, thus by muti-piece agitating plate 4-10 to falling into cabinet 5-1 Solid feed and liquid material mixing；The dynamic bevel gear A4-4 and dynamic bevel gear B4-5 can drive jointly when rotating Linkage mechanism 6 works.

Embodiment eight:

As shown in Fig. 1-17, the irregular gear 4-11 is a quarter gear；Irregular gear 4-11 is located at muti-piece stirring The front end of plate 4-10.

Embodiment nine:

As shown in Fig. 1-17, the linkage mechanism 6 includes linkage bevel gear 6-1, universal driving shaft 6-2, friction drive wheel 6-3, friction Link disk 6-4, lifting carriage plate 6-5, short axle A6-6, vertical frame plate 6-7, drive sprocket 6-8, by movable sprocket 6-9, worm screw 6-10, Worm gear 6-11, short axle B6-12 and linkage belt wheel 6-13；It engages the lower end of the dynamic bevel gear A4-4 and dynamic bevel gear B4-5 Transmission connection linkage bevel gear 6-1；The linkage bevel gear 6-1 is fixedly connected on the top of universal driving shaft 6-2, universal driving shaft 6-2's Middle part is fixedly connected with friction drive wheel 6-3, and the bottom end of universal driving shaft 6-2 is rotatably connected on the rear end of lifting carriage plate 6-5, and lifting is slided The middle-end of movable plate 6-5 is slidably connected in the vertical slide opening of perpendicular support 9, and the front end of lifting carriage plate 6-5 is fixedly connected on case On body 5-1；The rear end of the friction drive wheel 6-3 is connect with friction linkage disk 6-4 frictional drive；The friction linkage disk 6-4 It is respectively fixedly connected with drive sprocket 6-8 and is rotatably connected on vertical frame plate in the middle part of the front end both ends of short axle A6-6, short axle A6-6 The upper end of the lower end of 6-7, vertical frame plate 6-7 is fixedly connected on the rear end of T shape seat board 7；The drive sprocket 6-8 with by movable sprocket 6- It is connected between 9 by chain drive, the rear end of worm screw 6-10, the middle part rotation of worm screw 6-10 is fixedly connected on by movable sprocket 6-9 It is cooperatively connected in the upper end of vertical frame plate 6-7, the front end of worm screw 6-10 is connected by meshing transmission worm gear 6-11, worm gear 6-11 and linkage Wheel 6-13 is all fixedly connected on short axle B6-12, and short axle B6-12, which is rotatably assorted, to be connected on T shape seat board 7；The linkage belt wheel It is connected between 6-13, belt wheel A1-1 and belt wheel B2-1 by toothed belt transmission.

The short axle A6-6 is located at the upper end of friction drive wheel 6-3.

The linkage mechanism 6 is for cooperating total mix organisation of working 4 to drive solid feed addition mechanism 1 and liquid material addition The addition work of the progress raw material of mechanism 2；The dynamic bevel gear A4-4 and dynamic bevel gear B4-5 can drive jointly when rotating Linkage bevel gear 6-1 is rotated, and linkage bevel gear 6-1 can drive universal driving shaft 6-2 around own axis, linkage when rotating Axis 6-2 can drive friction drive wheel 6-3 to rotate when rotating, friction drive wheel 6-3 can be driven when rotating by frictional drive Friction linkage disk 6-4 can drive short axle A6-6 to rotate around own axis, friction linkage disk 6-4 when rotating, short axle A6-6 Drive sprocket 6-8 can be driven to rotate when rotation, drive sprocket 6-8 is rotated by chain-driving by movable sprocket 6-9, by movable sprocket 6-9 can drive worm screw 6-10 to rotate when rotating, worm screw 6-10 can drive worm gear 6-11 to rotate when rotating, worm gear 6-11 rotation When can by short axle B6-12 drive linkage belt wheel 6-13 be rotated, linkage belt wheel 6-13 rotation when can pass through synchronous belt Transmission belt movable belt pulley A1-1 and belt wheel B2-1 are rotated, and then solid feed addition mechanism 1 and liquid material is driven to add machine The addition work of the progress raw material of structure 2；And friction drive wheel 6-3, closer to the center of friction linkage disk 6-4, transmission speed is bigger, Solid feed adds mechanism 1 and the charging rate of liquid material addition mechanism 2 is faster, conversely, then slower until friction drive wheel 6-3 stops transmission when being detached from friction linkage disk 6-4；Universal driving shaft 6- is driven by lifting support 5-2 when cabinet 5-1 is moved downward 2 move downward, and universal driving shaft 6-2 drives friction drive wheel 6-3 to move downward, and friction drive wheel 6-3 is with dynamic friction linkage disk 6-4's Transmission speed decreases up to stopping transmission；Lifting carriage plate 6-5 is slided up and down in the vertical slide opening of perpendicular support 9, can both be played The effect of linkage, and guide and limit can be played the role of to the up and down motion of cabinet 5-1.

The operation principle of the present invention is that: printing and dyeing feedstock processing system of the invention is mainly used for the dye liquor of processing printing and dyeing； When being processed to printing and dyeing raw material, solid feed and liquid material is put into respectively to solid feed add 1 He of mechanism first The inside of liquid material addition mechanism 2；Then total mix organisation of working 4 is connected to power supply and is opened by control switch, always mixed Work mechanism 4 can drive linkage mechanism 6 to work after opening, and linkage mechanism 6 can drive solid feed to add machine when working Structure 1 and liquid material addition mechanism 2 carry out addition and the liquid of solid feed to the left and right ends inside raw material Chu Hun mechanism 3 respectively The addition work of state raw material, solid feed add mechanism 1 and liquid material addition mechanism 2 when carrying out filling, and solid feed adds The solid feed for adding mechanism 1 to be fed through inside raw material Chu Hun mechanism 3 can be at the beginning of liquid material addition mechanism 2 be fed through raw material It is tentatively mixed under the washing away of liquid material inside mixed mechanism 3, effect is mixed convenient for improving；Solid feed and liquid The mixed total mixing of raw material is fallen into the inside of total mix draw box mechanism 5, is carried out through the total mix organisation of working 4 in total mix draw box mechanism 5 Further mixing processing, finally obtains uniformly mixed printing and dyeing raw material, that is, dye liquor, and discharge is collected；When total When mixed 5 inside raw material of draw box mechanism is more and more, total mix organisation of working 4 drives solid feed to add 1 He of mechanism by linkage mechanism 6 The speed that liquid material addition mechanism 2 feeds is slower and slower, when 5 inside raw material of total mix draw box mechanism reaches preset weight, Linkage mechanism 6 stops that solid feed addition mechanism 1 and liquid material addition mechanism 2 is driven to carry out charging work, may be implemented certainly Dynamic circuit breaker material.

According to the disclosure and teachings of the above specification, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula is changed and is modified.Therefore, it the invention is not limited to embodiment disclosed and described above, some is repaired to of the invention Change and change should also be as falling into the scope of the claims of the present invention.In addition, although having been used in this specification some Specific term, these terms are merely for convenience of description, does not limit the present invention in any way.

Claims (10)

1. mixed machine at the beginning of feedstock processing system of printing and dyeing, including solid feed addition mechanism (1), liquid material addition mechanism (2), raw material Structure (3), total mix organisation of working (4), total mix draw box mechanism (5), linkage mechanism (6), T shape seat board (7), upper base plate (8), perpendicular support (9) and lower seat board (10), it is characterised in that: the total mix organisation of working (4) is connected on total mix draw box mechanism (5)；The total mix The lower end of draw box mechanism (5) is fixedly connected on lower seat board (10)；Total mix draw box mechanism (5) transmission connection linkage mechanism (6) Lower end；The lower end of the linkage mechanism (6) is fixedly connected on total mix draw box mechanism (5), and the lower end of linkage mechanism (6) is slidably matched Be connected in the vertical slide opening of perpendicular support (9), the upper end of linkage mechanism (6) is connected on T shape seat board (7), linkage mechanism (6) it is upper End transmission connection solid feed addition mechanism (1) and liquid material addition mechanism (2)；The upper and lower ends of the perpendicular support (9) point It is not fixedly connected with upper base plate (8) and lower seat board (10)；Solid feed addition mechanism (1) and liquid material addition mechanism (2) Upper end be connected to the left and right ends of T shape seat board (7)；Solid feed addition mechanism (1) and liquid material add machine It is respectively fixedly connected in the middle part of structure (2) in the left and right ends of upper base plate (8)；Solid feed addition mechanism (1) and liquid are former The lower end of material addition mechanism (2) is fixedly connected and is connected to the left and right ends of raw material Chu Hun mechanism (3) respectively；The raw material is just mixed Mechanism (3) is located at the surface of total mix draw box mechanism (5).

2. printing and dyeing feedstock processing system according to claim 1, it is characterised in that: the solid feed adds mechanism (1) Including belt wheel A(1-1), shaft A(1-2), conveyor screw (1-3), solid feed cylinder (1-4) and conveying pipeline A(1-5)；The solid-state The lower end of material tube (1-4) is fixedly connected and is connected to, conveying pipeline A(1-5 with one end of conveying pipeline A(1-5)) the other end and former The left end of Liao Chuhun mechanism (3) is fixedly connected and is connected to；The upper end of the solid feed cylinder (1-4) is fixedly connected on T shape seat board (7) left end is fixedly connected on the left end of upper base plate (8) in the middle part of solid feed cylinder (1-4)；The shaft A(1-2) up and down Both ends are respectively fixedly connected with belt wheel A(1-1) and conveyor screw (1-3), conveyor screw (1-3), which is rotatably assorted, is connected to solid feed cylinder (1-4) internal lower end, shaft A(1-2) in the middle part of be rotatably connected on T shape seat board (7)；The belt wheel A(1-1) and gear Structure (6) is connected with liquid material addition mechanism (2) by toothed belt transmission.

3. printing and dyeing feedstock processing system according to claim 2, it is characterised in that: the liquid material adds mechanism (2) Including belt wheel B(2-1), screw rod (2-2), liquid material cylinder (2-3), the conveying pipeline B(2-4 with control valve), take out platen (2- 5), guide rod (2-6) and the feed pipe (2-7) with control valve；The belt wheel B(2-1) it is fixedly connected on screw rod (2-2) Top, belt wheel A(1-1) it is connect with belt wheel B(2-1) and linkage mechanism (6) by toothed belt transmission；In the screw rod (2-2) Portion is rotatably connected on T shape seat board (7) by rolling bearing units；The platen (2-5) of smoking is threadedly attached in screw rod (2-2) On the body of rod of lower end, platen (2-5) sliding connection is taken out on guide rod (2-6), guide rod (2-6) is fixedly connected on liquid original On the inner wall of barrel (2-3)；Pumping platen (2-5) sealing is slidably connected on the inner wall of liquid material cylinder (2-3)；The liquid The upper end of state material tube (2-3) is fixedly connected on the right end of T shape seat board (7)；The middle part of the liquid material cylinder (2-3) is fixed to be connected Connect the right end in upper base plate (8)；The lower end of the liquid material cylinder (2-3) is fixedly connected and connects with one end of conveying pipeline B(2-4) It is logical；Conveying pipeline B(2-4) the other end be fixedly connected and be connected to the right end end of raw material Chu Hun mechanism (3)；Pumping platen (the 2- 5) it is fixedly connected in feed opening feed pipe (2-7), feed pipe (2-7) is connected to the inside of liquid material cylinder (2-3).

4. printing and dyeing feedstock processing system according to claim 3, it is characterised in that: raw material Chu Hun mechanism (3) includes Horizontal mixing drum (3-1), bending blanking barrel (3-2), shaft B(3-3), swirl vanes (3-4) and be mixed take turns (3-5)；Institute The upper end opening for stating bending blanking barrel (3-2) is fixedly connected on the left end of horizontal mixing drum (3-1)；Bending blanking barrel (the 3- 2) lower ending opening is arranged towards total mix draw box mechanism (5)；It is described bending blanking barrel (3-2) on rear side of left and right ends respectively with conveying Pipe A(1-5) it is fixedly connected and is connected to conveying pipeline B(2-4)；The shaft B(3-3) right end pass through mechanical seal be rotatablely connected On the right side of horizontal mixing drum (3-1)；The shaft B(3-3) on be fixedly connected with mixing wheel (3-5) and swirl vanes (3-4) is mixed wheel (3-5) and is located at conveying pipeline A(1-5) front, swirl vanes (3-4) are located at conveying pipeline B(2-4) Front.

5. printing and dyeing feedstock processing system according to claim 4, it is characterised in that: the total mix draw box mechanism (5) includes case Body (5-1), lifting support (5-2), compressed spring (5-3), stop collar (5-4), cylindrical shaft (5-5) and the row with control valve Expects pipe (5-6)；The lower end of the cabinet (5-1) is fixedly connected on the upper end of lifting support (5-2), under lifting support (5-2) At the middle part of cylindrical shaft (5-5), the lower end of cylindrical shaft (5-5) is fixedly connected on lower seat board (10) for end sliding connection；Institute The upper end for stating cylindrical shaft (5-5) is connected through a screw thread stop collar (5-4), stop collar (5-4) block on lifting support (5-2), The bottom end of cabinet (5-1) is fixedly connected and is connected to drainage conduit (5-6)；The rear end of the lifting support (5-2) is fixedly connected with linkage Mechanism (6)；The total mix organisation of working (4) is connected on cabinet (5-1)；The lower ending opening court of bending blanking barrel (3-2) It is arranged to the inside of cabinet (5-1).

6. printing and dyeing feedstock processing system according to claim 5, it is characterised in that: solid on the bottom surface of the cabinet (5-1) Surely electric boiling plate is connected.

7. printing and dyeing feedstock processing system according to claim 6, it is characterised in that: the total mix organisation of working (4) includes Servo motor (4-1), motor seat board (4-2) with retarder, drive bevel gear (4-3), dynamic bevel gear A(4-4), it is passive Bevel gear B(4-5), L shape seat board (4-6), rotating shaft C (4-7), rotation pipe (4-8), rotating ring (4-9), agitating plate (4-10), no Regular gear (4-11), rack gear (4-12), rectangular guide bar (4-13), grader leveling blade (4-14), perpendicular latch plate (4-15) and reset Pressure spring (4-16)；The servo motor (4-1) is fixedly connected on the trailing flank of cabinet (5-1) by motor seat board (4-2)；Institute It states and is fixedly connected on the output shaft of servo motor (4-1) drive bevel gear (4-3), the lower end of drive bevel gear (4-3), which is engaged, to be passed Dynamic connection dynamic bevel gear A(4-4) and dynamic bevel gear B(4-5)；The dynamic bevel gear A(4-4) it is fixedly connected on rotating shaft C The rear end of the rear end of (4-7), rotating shaft C (4-7) is rotatably connected on L shape seat board (4-6) by rolling bearing units, L shape seat board (4-6) It is fixedly connected on motor seat board (4-2)；The middle part sealing of the rotating shaft C (4-7) is rotatably connected in rotation pipe (4-8)；Institute The front end for stating rotating shaft C (4-7) is fixedly connected with irregular gear (4-11)；The lower end engaged transmission of the irregular gear (4-11) It connects rack gear (4-12), the lower end of rack gear (4-12) is fixedly connected grader leveling blade (4-14), and grader leveling blade (4-14) is slidably matched It is connected on the internal bottom surface of cabinet (5-1), the rectangular guide bar (4-13) is slidably connected intermediate in rack gear (4-12) In rectangular through-hole, the left and right ends of rectangular guide bar (4-13) are respectively fixedly connected with the left and right ends internal in cabinet (5-1)；It is described The lower end of perpendicular latch plate (4-15) is fixedly connected on grader leveling blade (4-14), and the upper end of perpendicular latch plate (4-15) is fixedly connected multiple The right end of position spring, the left end of reset spring is fixedly connected in the inner left wall of cabinet (5-1)；The dynamic bevel gear B(4- 5) it is fixedly connected on the rear end of rotation pipe (4-8), the middle part of rotation pipe (4-8) is rotatably connected on cabinet (5- by mechanical seal 1) on trailing flank, the front end of rotation pipe (4-8) is fixedly connected rotating ring (4-9), and uniform ring connects around fixed on rotating ring (4-9) It connects muti-piece agitating plate (4-10), muti-piece agitating plate (4-10) is rotatably connected on the inside of cabinet (5-1).

8. printing and dyeing feedstock processing system according to claim 7, it is characterised in that: the irregular gear (4-11) is four / mono- gear；Irregular gear (4-11) is located at the front end of muti-piece agitating plate (4-10).

9. printing and dyeing feedstock processing system according to claim 8, it is characterised in that: the linkage mechanism (6) includes linkage Bevel gear (6-1), universal driving shaft (6-2), friction drive wheel (6-3), friction linkage disk (6-4), lifting carriage plate (6-5), short axle A (6-6), vertical frame plate (6-7), drive sprocket (6-8), by movable sprocket (6-9), worm screw (6-10), worm gear (6-11), short axle B(6- 12) and belt wheel (6-13) is linked；The dynamic bevel gear A(4-4) and dynamic bevel gear B(4-5) lower end be connected by meshing transmission It links bevel gear (6-1)；Linkage bevel gear (6-1) is fixedly connected on the top of universal driving shaft (6-2), universal driving shaft (6-2) Middle part is fixedly connected friction drive wheel (6-3), and the bottom end of universal driving shaft (6-2) is rotatably connected on the rear end of lifting carriage plate (6-5), The middle-end of lifting carriage plate (6-5) is slidably connected the front end of lifting carriage plate (6-5) in the vertical slide opening of perpendicular support (9) It is fixedly connected on cabinet (5-1)；The rear end of the friction drive wheel (6-3) is connect with friction linkage disk (6-4) frictional drive； Friction linkage disk (6-4) and drive sprocket (6-8) are respectively fixedly connected in the front end both ends of short axle A(6-6), short axle A(6- 6) lower end of vertical frame plate (6-7) is rotatably connected in the middle part of, after the upper end of vertical frame plate (6-7) is fixedly connected on T shape seat board (7) End；The drive sprocket (6-8) with connect between movable sprocket (6-9) by chain drive, be fixedly connected by movable sprocket (6-9) In the rear end of worm screw (6-10), it is rotatably assorted in the middle part of worm screw (6-10) and is connected to the upper end of vertical frame plate (6-7), worm screw (6-10) Front end be connected by meshing transmission worm gear (6-11), worm gear (6-11) and linkage belt wheel (6-13) be all fixedly connected on short axle B(6- 12) on, short axle B(6-12) being rotatably assorted is connected on T shape seat board (7)；The linkage belt wheel (6-13), belt wheel A(1-1) and band Take turns B(2-1) between by toothed belt transmission connection.

10. printing and dyeing feedstock processing system according to claim 9, it is characterised in that: the short axle A(6-6) it is located at friction The upper end of driving wheel (6-3).